“引江济淮”工程对安徽菜子湖水龄分布的影响

菜子湖是"引江济淮"工程的重要输水通道,其水体输运和物质交换将因输水工程发生改变.本文基于环境流体水动力学模型（EFDC）建立了菜子湖水龄模型,在将模型与实测水文数据验证满足精度的前提下,设计14种方案计算菜子湖在季风影响下的水龄,工程实施期间菜子湖在丰、平、枯季的水龄与流场,以及枯水季调水情景下同风速8种风向和强风向3种风速时的水龄.数值试验的模拟结果表明：菜子湖湖体水龄分布具有时空差异性,无风条件下,春、夏、秋、冬季的湖体的平均水龄分别为120.93、33.19、92.92、101.48 d,而在季风影响下,春、夏、秋、冬季平均水龄分别为75.23、32.45、81.80、66.16 d;西部L2湖水龄较长,东部L1湖和南部L3湖水龄较短;输水工程将改变L1和L3湖的流场,对L2湖流场几乎无影响;输水工程实施后,菜子湖水龄分布主要受风场及输水影响,不同风向对菜子湖各湖区影响不同,西南风有助于L1湖水体交换,北风有助于L2湖水体交换,东风有助于L3湖水体交换,而当风向为东北风时,3个湖区水龄均较小;枯水季调水有利于L1湖和L3湖水体交换,但对L2湖水体交换作用不明显.     

Fluvial to bay sequence stratigraphy and seismic facies of the Cretaceous to Paleogene successions in the MITI Sanriku‐oki well and the vicinities,the Sanriku‐oki forearc basin,northeast Japan

This paper describes the significant depositional setting information derived from well and seismic survey data for the Upper Cretaceous to Lower Eocene forearc basin sediments in the central part of the Sanriku‐oki basin, which is regarded as a key area for elucidating the plate tectonic history of the Northeast Japan Arc. According to the results of well facies analysis utilizing cores, well logs and borehole images, the major depositional environments were of braided and meandering fluvial environments with sporadically intercalated marine incursion beds. Seismic facies, reflection terminations and isopach information provide the actual spatial distributions of fluvial channel zones flowing in a north–south trending direction. The transgression and regression cycles indicate that the Upper Cretaceous to Lower Eocene successions can be divided into thirteen depositional sequences (Sequences SrCr‐0 to SrCr‐5, and SrPg‐1 to SrPg‐7). These depositional sequences demonstrate three types of stacking patterns: Types A to C, each of which shows a succession mainly comprising a meandering fluvial system, a braided fluvial system with minor meandering aspects in the upper part, and major marine incursion beds in the middle part, respectively, although all show an overall transgressive to regressive succession. The Type C marine incursion beds characteristically comprise bay center and tidal‐dominated bay margin facies. Basin‐transecting long seismic sections demonstrate a roll up structure on the trench slope break (TSB) side of the basin. These facts suggest that during the Cretaceous to Eocene periods, the studied fluvial‐dominated forearc basin was sheltered by the uplifted TSB. The selective occurrences of the Type C sequences suggest that when a longer‐scale transgression occurred, especially in Santonian and early Campanian periods, a large bay basin was developed, creating accommodation space, which induced the deposition of the Cretaceous Kuji Group along the arc‐side basin margin.     

改进的阻尼法低纬度磁异常化极方法

中低纬度地区的磁异常资料进行化极处理能减少或消除斜磁化影响,对提高磁测资料的利用程度有重要意义.本文在总结分析原有的低纬度磁异常化极过程的基础上,改进了原有化极方法的滤波过程.改进后的阻尼化极方法,采用将振幅谱和相位谱分开进行滤波的过程,过程中只需要考虑对化极因子的振幅谱进行压制即可.通过公式分析表明该方法更加合理,减少了人为因素的影响;经单个模型和组合模型试验表明,此化极方法准确、稳定、可靠,可以有效地突出低纬度地区的异常体信息.     

PRIMARILY STUDY ON FEATURES OF SURFACE RUPTURES INDUCED BY THE 2016 MW7.8 KARKOURA EARTHQUAKE,NEW ZEALAND

The surface ruptures produced by the 2016 M_W7.8 Karkoura earthquake, New Zealand are distributed in a belt with~170km long and~35km wide, trending generally in the NE-SW direction. There are at least 12 faults on which meter-scale displacements are identified and they were formed across two distinct seismotectonic provinces with fundamental different characteristics(Hamling et al., 2017; Litchfield et al., 2017). Although the trending directions of the seismic surface ruptures vary greatly at different locations, the ruptured faults can be generally divided into two groups with the NE to NEE direction and the NNW to N direction, respectively. The faults in the NNW-near NS direction are nearly parallel with 40~50km apart and featured by reverse movement with the maximum displacement of 5~6m. The faults in the NE-NNE direction, with the maximum of 25~30km apart are not continuous and featured by the dextral strike slip with the largest displacement of 10~12m. Even if some faults along the NE-NEE direction are end to end connected, their strikes differ by about 30°. The combination styles of the strike-slip fault surface ruptures along the NE-NEE direction can be merged into 3 categories, including en-echelon, bifurcation and parallel patterns. The scales of the fault surface ruptures with the same structural style could be obviously different in different areas, which results in significant changes in the widths of deformation zone, from tens of meters to hundreds of meters. En-echelon distributed surface rupture(section)can appear as a combination belt of meter-scale to dozens of meter-scale shear fracture with bulge and compressional shear fractures, and also can be characterized by the combination of the left-step en-echelon tensile shear fractures with a length of more than one hundred meters. The step-overs between surface rupture sections are clearly different in sizes, which can be dozens of meters, hundreds of meters to several kilometers. The spacing between parallel surface ruptures can be several meters, dozens of meters to several kilometers. Besides, as one of the prominent characteristics, the seismic surface ruptures caused by the Karkoura earthquake broke through the known distribution pattern of active faults. The surface ruptures can occur either on the previously thought inactive or unmapped faults, or break through the distribution range of previously realized active faults in the striking or lateral direction. The basic features about the distribution and widths of the surface ruptures induced by the 2016 M_W7.8 Karkoura earthquake, New Zealand presented in this paper might be helpful for understanding some seismic problems such as complex corresponding relationship between the active faults and the deep seismogenic structure, and the necessary measurements for engineering crossing active faults.     

RESPONSES OF THE S-A DOUBLE-LOG GRAPH,CONCAVITY INDEX AND STEEPNESS INDEX OF CHANNELS TO THE TECTO-NIC MOVEMENT OF THE HUOSHAN PIEDMONT FAULT

The Huoshan piedmont fault is a small watershed region in Shanxi Province. We utilized the high-resolution DEM data and the stream-power incision model which describes the relationship between the tectonic uplift and fluvial incision to analyze the S-A double-log graph, concavity index (θ)and steepness index (logk_s) of the 64 channels across this fault and discuss their responses to the tectonic movement of the fault. The results show that (1)the S-A double-log graphs all exhibit an obvious convex form, which is the direct expression of the response to the situation that the bedrock uplift rate is higher than the fluvial incision rate. (2)All of the concavity index (θ)values of 64 channels are lower than 0.35 with an average value of 0.223, much lower than the empirical value (0.49)of the rivers in steady state. These low values are the quantitative reflections of the channels' slightly concave profiles. Meanwhile they imply that these channels across the fault are very young. There is no enough time for them to adjust the profiles through the fluvial incision to the steady state because of the fault's frequent and strong tectonic movements. (3)The steepness index values of the channels located in the Laoyeding Mt. are highest, while they are lower in the northern and southern mountains. Moreover, the steepness index values of the channels in the northern mountains, on average, are higher than those of the channels in the southern mountains. To a certain extent, this distribution of the steepness index corresponds to the difference in the uplift rates of the Huoshan piedmont fault. It means that the uplift rate of the middle fault segment in the Laoyeding Mt. is highest, and the uplift rate of the northern segment is higher than that of the southern segment.     

The impact of surface‐wave attenuation on 3‐D seismic survey design

Three‐dimensional seismic survey design should provide an acquisition geometry that enables imaging and amplitude‐versus‐offset applications of target reflectors with sufficient data quality under given economical and operational constraints. However, in land or shallow‐water environments, surface waves are often dominant in the seismic data. The effectiveness of surface‐wave separation or attenuation significantly affects the quality of the final result. Therefore, the need for surface‐wave attenuation imposes additional constraints on the acquisition geometry. Recently, we have proposed a method for surface‐wave attenuation that can better deal with aliased seismic data than classic methods such as slowness/velocity‐based filtering. Here, we investigate how surface‐wave attenuation affects the selection of survey parameters and the resulting data quality. To quantify the latter, we introduce a measure that represents the estimated signal‐to‐noise ratio between the desired subsurface signal and the surface waves that are deemed to be noise. In a case study, we applied surface‐wave attenuation and signal‐to‐noise ratio estimation to several data sets with different survey parameters. The spatial sampling intervals of the basic subset are the survey parameters that affect the performance of surface‐wave attenuation methods the most. Finer spatial sampling will reduce aliasing and make surface‐wave attenuation easier, resulting in better data quality until no further improvement is obtained. We observed this behaviour as a main trend that levels off at increasingly denser sampling. With our method, this trend curve lies at a considerably higher signal‐to‐noise ratio than with a classic filtering method. This means that we can obtain a much better data quality for given survey effort or the same data quality as with a conventional method at a lower cost.     

芦山7.0级地震近断层地震动的方向性

基于芦山7.0级地震中断层距小于100 km自由场台站的强震动记录观测数据,研究此次地震近断层地震动的方向性特性,并探讨方向性特性与震源破裂机制、断层距离和空间方位的关系.研究结果表明：（1）与距断层较远记录不同,近断层地震动在不同的观测方向上表现出显著的强度差异,存在明显的极大和极小作用方向.在不同的方向上,最大加速度反应可达最小值的4倍以上;（2）这种方向性差异在T=1.0 s以上的长周期段更为明显,在T=0.1 s以下的短周期段,地震动随方向变化的差异较小.地震动强度随方向变化的差异随周期增大而增大,不同方向上的加速度反应谱值的最大值与最小值之比从周期T=0.01 s时的约1.7增大到周期T=10 s时的约2.4;（3）在距离断层约35 km以内,地震动具有明显方向性,地震动卓越方向具有垂直断层走向的特征,随断层距的增大,这种方向性不明显.从不同方向上地震动强度的差异来看,随断层距增大,地震动强度在不同方向上的差异在减小,表现为各个周期的最大值/中值和最大值/最小值比值均随断层距离增大缓慢减小;（4）近断层地震动的方向性特性主要受断层上、下盘的相对运动所控制,其在长周期的卓越方向与水平同震位移方向一致,且该卓越方向上的地震动强度绝对大小与地震破裂造成的静态位移明显相关,表现为地震动强度随水平同震位移的增大而增大.     

1990—2018年于桥水库流域氮磷浓度变化趋势及影响因素

基于1990—2018年于桥水库流域入库河流与水库的逐月总氮(TN)和总磷(TP)监测数据,整理并分析了1990-2002、2003—2014和2015—2018年3个时段TN、TP浓度和氮磷比(TN/TP)的时空变化特征,探究流域内点面源污染削减、调水、氮磷滞留等对营养盐浓度变化的影响。结果表明,1990—2018年于桥水库TN浓度年均值在1.14～3.74 mg/L之间,水库TP浓度年均值在0.025～0.131 mg/L之间,多年TN/TP平均值为45,远高于淡水磷限氮磷比,是磷限水库。于桥水库流域5个测点中,沙河TN浓度最高,黎河TP浓度最高,入库TN、TP浓度大于库区,水库TP滞留率略大于TN。水库TN、TP浓度在2000s中后期下降,之后出现反弹。原因是2003年水源保护工程实施后,入库营养物浓度降低;2014年底南水北调中线一期工程通水后,于桥水库的引滦水量减少,TN的稀释效应弱化,上游来水TP浓度上升与水库内夏秋两季浮游植物的增殖,导致第三时段水库内TP浓度上升。基于月尺度水质分析,夏季水库TN浓度最低,TP浓度达到峰值,主成分分析表明,历年6—10月的水库Chl.a浓...     

一种动态参考站RTK模糊度解算方法

根据两空间的不同特性和两空间模糊度之间的匹配关系 ,提出了双空间搜索算法 ,使两空间的模糊度候选值明显减少 ,因此可以加快模糊度的搜索速度 ,并用车载试验数据验证了方法的正确性。车载“动对动”定位结果与常规RTK结果比较 ,精度达到mm级     

2017年精河MS6.6地震前地磁异常特征分析

2017年8月9精河发生M_S6.6地震,距震中300km范围内的温泉台、克拉玛依台、乌鲁木齐台捕捉到此次地震前的地磁异常信息,本文对此进行了分析和总结,结论如下：①地磁谐波振幅比反应了观测点深部电阻率变化,2016年呼图壁M_S6.2、此次精河M_S6.6地震均发生在克拉玛依台地磁谐波振幅比异常下降之后的转折和恢复阶段;②震前83天、21天沿北天山断裂带分布的地磁台站逐日比和加卸载响应比均成组出现超限的高值,且异常高值的空间分布与震中位置有一定关联;③全国大陆地磁台站震前34天出现低点位移突变分界线,且异常集中于震中附近。